// Created by libAntimony v2.8.0 function function_4_v003(K3, K4, V3, pERK_c, ppERK_c) (V3*pERK_c)/(K3*(1 + ppERK_c/K4) + pERK_c); end function function_4_v004(K3, K4, V4, pERK_c, ppERK_c) (V4*ppERK_c)/(K4*(1 + pERK_c/K3) + ppERK_c); end function function_4_v005(K5, K6, V5, pERK_n, ppERK_n) (V5*pERK_n)/(K5*(1 + ppERK_n/K6) + pERK_n); end function function_4_v006(K5, K6, V6, pERK_n, ppERK_n) (V6*ppERK_n)/(K6*(1 + pERK_n/K5) + ppERK_n); end function function_4_v007(KexERK, KimERK, Vc, Vn, ERK_c, ERK_n) KimERK*Vc*ERK_c - KexERK*Vn*ERK_n; end function function_4_v008(KexERKP, KimERKP, Vc, Vn, pERK_c, pERK_n) KimERKP*Vc*pERK_c - KexERKP*Vn*pERK_n; end function function_4_v015(K15, V15, pDUSP_c) (V15*pDUSP_c)/(K15 + pDUSP_c); end function function_4_v018(KexDUSP, KimDUSP, Vc, Vn, DUSP_n, DUSP_c) KimDUSP*Vc*DUSP_c - KexDUSP*Vn*DUSP_n; end function function_4_v019(KexDUSPP, KimDUSPP, Vc, Vn, pDUSP_c, pDUSP_n) KimDUSPP*Vc*pDUSP_c - KexDUSPP*Vn*pDUSP_n; end function function_4_v020(K20, V20, ppERK_n, DUSP_n) (V20*ppERK_n*DUSP_n)/(K20 + DUSP_n); end function function_4_v021(K21, V21, pDUSP_n) (V21*pDUSP_n)/(K21 + pDUSP_n); end function function_4_v024(K24, V24, ppERK_c, RSK_c) (V24*ppERK_c*RSK_c)/(K24 + RSK_c); end function function_4_v001(Fct, K1, K2, V1, ERK_c, pERK_c, MEKc) (V1*Fct*MEKc*ERK_c)/(K1*(1 + pERK_c/K2) + ERK_c); end function function_4_v009(KexERKPP, KimERKPP, Vc, Vn, ppERK_c, ppERK_n) KimERKPP*Vc*ppERK_c - KexERKPP*Vn*ppERK_n; end function function_4_v010(K10, V10, n10, ppERK_n) (V10*ppERK_n^n10)/(K10^n10 + ppERK_n^n10); end function function_4_v011(Vn, p11, PreDUSPmRNA) p11*Vn*PreDUSPmRNA; end function function_4_v013(p13, DUSPmRNA) p13*DUSPmRNA; end function function_4_v014(K14, V14, ppERK_c, DUSP_c) (V14*ppERK_c*DUSP_c)/(K14 + DUSP_c); end function function_4_v002(Fct, K1, K2, V2, ERK_c, pERK_c, MEKc) (V2*Fct*MEKc*pERK_c)/(K2*(1 + ERK_c/K1) + pERK_c); end function function_4_v029(K29, V29, ppERK_n, Elk1_n) (V29*ppERK_n*Elk1_n)/(K29 + Elk1_n); end function function_4_v025(K25, V25, pRSK_c) (V25*pRSK_c)/(K25 + pRSK_c); end function function_4_v026(KexRSKP, KimRSKP, Vc, Vn, pRSK_n, pRSK_c) KimRSKP*Vc*pRSK_c - KexRSKP*Vn*pRSK_n; end function function_4_v032(Vn, p32, PreFOSmRNA) p32*Vn*PreFOSmRNA; end function function_4_v034(p34, c_FOSmRNA) p34*c_FOSmRNA; end function function_4_v035(K35, V35, c_FOS_c, ppERK_c) (V35*ppERK_c*c_FOS_c)/(K35 + c_FOS_c); end function function_4_v036(K36, V36, c_FOS_c, pRSK_c) (V36*pRSK_c*c_FOS_c)/(K36 + c_FOS_c); end function function_4_v037(K37, V37, pc_FOS_c) (V37*pc_FOS_c)/(K37 + pc_FOS_c); end function function_4_v027(K27, V27, CREB_n, pRSK_n) (V27*pRSK_n*CREB_n)/(K27 + CREB_n); end function function_4_v028(K28, V28, pCREB_n) (V28*pCREB_n)/(K28 + pCREB_n); end function function_4_v030(K30, V30, pElk1_n) (V30*pElk1_n)/(K30 + pElk1_n); end function function_4_v031(K31, KF31, V31, n31, nF31, Fn, pCREB_n, pElk1_n) (V31*(pCREB_n*pElk1_n)^n31)/(K31^n31 + (pCREB_n*pElk1_n)^n31 + (Fn/KF31)^nF31); end function function_4_v040(KexFOS, KimFOS, Vc, Vn, c_FOS_c, FOSn) KimFOS*Vc*c_FOS_c - KexFOS*Vn*FOSn; end function function_4_v041(KexFOSP, KimFOSP, Vc, Vn, pc_FOS_c, FOSn_2) KimFOSP*Vc*pc_FOS_c - KexFOSP*Vn*FOSn_2; end function function_4_v042(K42, V42, ppERK_n, FOSn) (V42*ppERK_n*FOSn)/(K42 + FOSn); end function function_4_v043(K43, V43, FOSn, pRSK_n) (V43*pRSK_n*FOSn)/(K43 + FOSn); end function function_4_v044(K44, V44, FOSn_2) (V44*FOSn_2)/(K44 + FOSn_2); end function function_4_v057(K57, V57, n57, FOSn_2) (V57*FOSn_2^n57)/(K57^n57 + FOSn_2^n57); end function function_4_v058(Vn, p58, PreFmRNA) p58*Vn*PreFmRNA; end function function_4_v060(p60, FmRNA) p60*FmRNA; end function function_4_v062(KexF, KimF, Vc, Vn, F, Fn) KimF*Vc*F - KexF*Vn*Fn; end function function_4_v063(cytoplasm, nucleus, p63, Fn) (cytoplasm*p63*Fn)/nucleus; end function function_4_v101(K101, V101, A1, EGF) (V101*EGF*A1)/(K101 + A1); end function function_4_v102(K102, V102, A1_2) (V102*A1_2)/(K102 + A1_2); end function function_4_v103(K103, V103, A2, HRG) (V103*HRG*A2)/(K103 + A2); end function function_4_v104(K104, V104, A2_2) (V104*A2_2)/(K104 + A2_2); end function function_4_v105(K105, V105, EGF, RsD) (V105*EGF*RsD)/(K105 + RsD); end function function_4_v106(K106, V106, HRG, RsD) (V106*HRG*RsD)/(K106 + RsD); end function function_4_v107(K107, V107, A1_2, RsT) (V107*A1_2*RsT)/(K107 + RsT); end function function_4_v108(K108, V108, A2_2, RsT) (V108*A2_2*RsT)/(K108 + RsT); end function function_4_v109(K109, V109, HRG, A3) (V109*HRG*A3)/(K109 + A3); end function function_4_v110(K110, V110, A3_2) (V110*A3_2)/(K110 + A3_2); end function function_4_v111(K111, V111, HRG, Kin) (V111*HRG*Kin)/(K111 + Kin); end function function_4_v112(K112, V112, A3_2, Kin_2) (V112*A3_2*Kin_2)/(K112 + Kin_2); end function function_4_v113(K113, V113, RsT, pMEK_c) (V113*RsT*pMEK_c)/(K113 + pMEK_c); end function function_4_v114(K114, V114, Kin_2, pMEK_c) (V114*Kin_2*pMEK_c)/(K114 + pMEK_c); end function function_4_v115(K115, V115, MEKc) (V115*MEKc)/(K115 + MEKc); end model *Model_1() // Compartments and Species: compartment default, cytoplasm, nucleus; species $EGF in default, $HRG in default, A1 in cytoplasm, A1_2 in cytoplasm; species A2 in cytoplasm, A2_2 in cytoplasm, A3 in cytoplasm, A3_2 in cytoplasm; species DUSPmRNA in cytoplasm, ERK_c in cytoplasm, pERK_c in cytoplasm; species ppERK_c in cytoplasm, F in cytoplasm, c_FOS_c in cytoplasm, pc_FOS_c in cytoplasm; species c_FOSmRNA in cytoplasm, FmRNA in cytoplasm, Kin in cytoplasm, Kin_2 in cytoplasm; species pMEK in cytoplasm, MEK in cytoplasm, DUSP_c in cytoplasm, pDUSP_c in cytoplasm; species RSK_c in cytoplasm, pRSK_c in cytoplasm, RsD in cytoplasm, RsT in cytoplasm; species CREB_n in nucleus, pCREB_n in nucleus, ERK_n in nucleus, pERK_n in nucleus; species ppERK_n in nucleus, Elk1_n in nucleus, pElk1_n in nucleus, FOSn in nucleus; species FOSn_2 in nucleus, Fn in nucleus, DUSP_n in nucleus, pDUSP_n in nucleus; species pDUSP_n_ERK_n in nucleus, pDUSP_n_pERK_n in nucleus, pDUSP_n_ppERK_n in nucleus; species DUSP_n_ERK_n in nucleus, DUSP_n_pERK_n in nucleus, DUSP_n_ppERK_n in nucleus; species PreDUSPmRNA in nucleus, PreFOSmRNA in nucleus, PreFmRNA in nucleus; species pRSK_n in nucleus; // Reactions: reaction_32: ERK_c => pERK_c; cytoplasm*function_4_v001(Fct, K1, K2, V1, ERK_c, pERK_c, pMEK); reaction_6: pERK_c => ppERK_c; cytoplasm*function_4_v002(Fct, K1, K2, V2, ERK_c, pERK_c, pMEK); re85: pERK_c => ERK_c; cytoplasm*function_4_v003(K3, K4, V3, pERK_c, ppERK_c); re86: ppERK_c => pERK_c; cytoplasm*function_4_v004(K3, K4, V4, pERK_c, ppERK_c); re87: pERK_n => ERK_n; nucleus*function_4_v005(K5, K6, V5, pERK_n, ppERK_n); re88: ppERK_n => pERK_n; nucleus*function_4_v006(K5, K6, V6, pERK_n, ppERK_n); re106: ERK_c -> ERK_n; function_4_v007(KexERK, KimERK, Vc, Vn, ERK_c, ERK_n); re107: pERK_c -> pERK_n; function_4_v008(KexERKP, KimERKP, Vc, Vn, pERK_c, pERK_n); re108: ppERK_c -> ppERK_n; function_4_v009(KexERKPP, KimERKPP, Vc, Vn, ppERK_c, ppERK_n); re109: => PreDUSPmRNA; nucleus*function_4_v010(K10, V10, n10, ppERK_n); re110: PreDUSPmRNA => DUSPmRNA; function_4_v011(Vn, p11, PreDUSPmRNA); reaction_17: DUSPmRNA => ; cytoplasm*p12*DUSPmRNA; re89: => DUSP_c; cytoplasm*function_4_v013(p13, DUSPmRNA); reaction_33: DUSP_c => pDUSP_c; cytoplasm*function_4_v014(K14, V14, ppERK_c, DUSP_c); reaction_34: pDUSP_c => DUSP_c; cytoplasm*function_4_v015(K15, V15, pDUSP_c); reaction_35: DUSP_c => ; cytoplasm*p16*DUSP_c; reaction_36: pDUSP_c => ; cytoplasm*p17*pDUSP_c; re111: DUSP_c -> DUSP_n; function_4_v018(KexDUSP, KimDUSP, Vc, Vn, DUSP_n, DUSP_c); re112: pDUSP_c -> pDUSP_n; function_4_v019(KexDUSPP, KimDUSPP, Vc, Vn, pDUSP_c, pDUSP_n); reaction_12: DUSP_n => pDUSP_n; nucleus*function_4_v020(K20, V20, ppERK_n, DUSP_n); reaction_13: pDUSP_n => DUSP_n; nucleus*function_4_v021(K21, V21, pDUSP_n); reaction_14: DUSP_n => ; nucleus*p22*DUSP_n; reaction_15: pDUSP_n => ; nucleus*p23*pDUSP_n; reaction_41: RSK_c => pRSK_c; cytoplasm*function_4_v024(K24, V24, ppERK_c, RSK_c); reaction_42: pRSK_c => RSK_c; cytoplasm*function_4_v025(K25, V25, pRSK_c); re113: pRSK_c -> pRSK_n; function_4_v026(KexRSKP, KimRSKP, Vc, Vn, pRSK_n, pRSK_c); reaction_45: CREB_n => pCREB_n; nucleus*function_4_v027(K27, V27, CREB_n, pRSK_n); reaction_46: pCREB_n => CREB_n; nucleus*function_4_v028(K28, V28, pCREB_n); reaction_57: Elk1_n => pElk1_n; nucleus*function_4_v029(K29, V29, ppERK_n, Elk1_n); reaction_58: pElk1_n => Elk1_n; nucleus*function_4_v030(K30, V30, pElk1_n); reaction_47: => PreFOSmRNA; nucleus*function_4_v031(K31, KF31, V31, n31, nF31, Fn, pCREB_n, pElk1_n); re115: PreFOSmRNA => c_FOSmRNA; function_4_v032(Vn, p32, PreFOSmRNA); reaction_50: c_FOSmRNA => ; cytoplasm*p33*c_FOSmRNA; re90: => c_FOS_c; cytoplasm*function_4_v034(p34, c_FOSmRNA); reaction_59: c_FOS_c => pc_FOS_c; cytoplasm*function_4_v035(K35, V35, c_FOS_c, ppERK_c); reaction_67: c_FOS_c => pc_FOS_c; cytoplasm*function_4_v036(K36, V36, c_FOS_c, pRSK_c); reaction_60: pc_FOS_c => c_FOS_c; cytoplasm*function_4_v037(K37, V37, pc_FOS_c); reaction_61: c_FOS_c => ; cytoplasm*p38*c_FOS_c; reaction_62: pc_FOS_c => ; cytoplasm*p39*pc_FOS_c; re116: c_FOS_c -> FOSn; function_4_v040(KexFOS, KimFOS, Vc, Vn, c_FOS_c, FOSn); re117: pc_FOS_c -> FOSn_2; function_4_v041(KexFOSP, KimFOSP, Vc, Vn, pc_FOS_c, FOSn_2); reaction_52: FOSn => FOSn_2; nucleus*function_4_v042(K42, V42, ppERK_n, FOSn); reaction_53: FOSn => FOSn_2; nucleus*function_4_v043(K43, V43, FOSn, pRSK_n); reaction_54: FOSn_2 => FOSn; nucleus*function_4_v044(K44, V44, FOSn_2); reaction_55: FOSn => ; nucleus*p45*FOSn; reaction_56: FOSn_2 => ; nucleus*p46*FOSn_2; reaction_25: pDUSP_n + ppERK_n -> pDUSP_n_ppERK_n; nucleus*(p52*pDUSP_n*ppERK_n - m52*pDUSP_n_ppERK_n); reaction_26: pDUSP_n_ppERK_n => pDUSP_n + pERK_n; nucleus*p53*pDUSP_n_ppERK_n; reaction_27: pDUSP_n + pERK_n -> pDUSP_n_pERK_n; nucleus*(p54*pDUSP_n*pERK_n - m54*pDUSP_n_pERK_n); reaction_28: pDUSP_n_pERK_n => pDUSP_n + ERK_n; nucleus*p55*pDUSP_n_pERK_n; reaction_30: pDUSP_n + ERK_n -> pDUSP_n_ERK_n; nucleus*(p56*pDUSP_n*ERK_n - m56*pDUSP_n_ERK_n); reaction_21: DUSP_n + ppERK_n -> DUSP_n_ppERK_n; nucleus*(p47*DUSP_n*ppERK_n - m47*DUSP_n_ppERK_n); reaction_22: DUSP_n_ppERK_n => DUSP_n + pERK_n; nucleus*p48*DUSP_n_ppERK_n; reaction_23: DUSP_n + pERK_n -> DUSP_n_pERK_n; nucleus*(p49*DUSP_n*pERK_n - m49*DUSP_n_pERK_n); reaction_24: DUSP_n_pERK_n => DUSP_n + ERK_n; nucleus*p50*DUSP_n_pERK_n; reaction_29: DUSP_n + ERK_n -> DUSP_n_ERK_n; nucleus*(p51*DUSP_n*ERK_n - m51*DUSP_n_ERK_n); re92: => PreFmRNA; nucleus*function_4_v057(K57, V57, n57, FOSn_2); re118: PreFmRNA => FmRNA; function_4_v058(Vn, p58, PreFmRNA); re94: FmRNA => ; cytoplasm*p59*FmRNA; re95: => F; cytoplasm*function_4_v060(p60, FmRNA); re96: F => ; cytoplasm*p61*F; re119: F -> Fn; function_4_v062(KexF, KimF, Vc, Vn, F, Fn); re99: Fn => ; nucleus*function_4_v063(cytoplasm, nucleus, p63, Fn); reaction_31: A1 => A1_2; cytoplasm*function_4_v101(K101, V101, A1, EGF); reaction_68: A1_2 => A1; cytoplasm*function_4_v102(K102, V102, A1_2); reaction_69: A2 => A2_2; cytoplasm*function_4_v103(K103, V103, A2, HRG); reaction_70: A2_2 => A2; cytoplasm*function_4_v104(K104, V104, A2_2); reaction_71: RsD => RsT; cytoplasm*function_4_v105(K105, V105, EGF, RsD); reaction_72: RsD => RsT; cytoplasm*function_4_v106(K106, V106, HRG, RsD); reaction_73: RsT => RsD; cytoplasm*function_4_v107(K107, V107, A1_2, RsT); reaction_74: RsT => RsD; cytoplasm*function_4_v108(K108, V108, A2_2, RsT); reaction_75: A3 => A3_2; cytoplasm*function_4_v109(K109, V109, HRG, A3); reaction_76: A3_2 => A3; cytoplasm*function_4_v110(K110, V110, A3_2); reaction_77: Kin => Kin_2; cytoplasm*function_4_v111(K111, V111, HRG, Kin); reaction_78: Kin_2 => Kin; cytoplasm*function_4_v112(K112, V112, A3_2, Kin_2); reaction_79: MEK => pMEK; cytoplasm*function_4_v113(K113, V113, RsT, MEK); reaction_80: MEK => pMEK; cytoplasm*function_4_v114(K114, V114, Kin_2, MEK); reaction_81: pMEK => MEK; cytoplasm*function_4_v115(K115, V115, pMEK); // Species initializations: EGF = 0; HRG = 10; A1 = 182.3524; A1_2 = 0; A2 = 25.38702; A2_2 = 0; A3 = 13.09262; A3_2 = 0; DUSPmRNA = 0; ERK_c = 570.4179; pERK_c = 0; ppERK_c = 0; F = 0; c_FOS_c = 0; pc_FOS_c = 0; c_FOSmRNA = 0; FmRNA = 0; Kin = 82.66574; Kin_2 = 0; pMEK = 0; MEK = 637.3212; DUSP_c = 0; pDUSP_c = 0; RSK_c = 353; pRSK_c = 0; RsD = 247.4035; RsT = 0; CREB_n = 1000; pCREB_n = 0; ERK_n = 1624.9; pERK_n = 0; ppERK_n = 0; Elk1_n = 1510; pElk1_n = 0; FOSn = 0; FOSn_2 = 0; Fn = 0; DUSP_n = 0; pDUSP_n = 0; pDUSP_n_ERK_n = 0; pDUSP_n_pERK_n = 0; pDUSP_n_ppERK_n = 0; DUSP_n_ERK_n = 0; DUSP_n_pERK_n = 0; DUSP_n_ppERK_n = 0; PreDUSPmRNA = 0; PreFOSmRNA = 0; PreFmRNA = 0; pRSK_n = 0; // Compartment initializations: default = 1; cytoplasm = 940; nucleus = 220; // Variable initializations: V2 = 0.22; V3 = 0.72; K3 = 160; V4 = 0.648; K4 = 60; V5 = 19.49872346; K5 = 29.94073716; V6 = 19.4987234631759; K6 = 29.9407371620698; KimERK = 0.012; KexERK = 0.018; KimERKP = 0.012; KexERKP = 0.018; KimERKPP = 0.011; KexERKPP = 0.013; V10 = 29.24109258; K10 = 169.0473748; n10 = 3.970849295; p11 = 0.000126129; p12 = 0.007875765; p13 = 0.001245747; V14 = 5.636949216; K14 = 34180.48; V15 = 2.992346912; K15 = 0.001172165; p16 = 0.000257; p17 = 4.81e-005; KimDUSP = 0.024269764; KexDUSP = 0.070467899; KimDUSPP = 0.024269764; KexDUSPP = 0.070467899; V20 = 0.157678678; K20 = 735598.6967; V21 = 0.005648117; K21 = 387.8377182; p22 = 0.000257; p23 = 4.81e-005; V24 = 0.550346114; K24 = 29516.06587; V1 = 0.342848369838443; K1 = 307.041525298866; V25 = 10.09063736; K25 = 0.913939859; KimRSKP = 0.025925065; KexRSKP = 0.129803956; V27 = 19.23118154; K27 = 441.5834425; V28 = 6.574759504; K28 = 14.99180922; V29 = 0.518529841; K29 = 21312.69109; V30 = 13.79479021; K30 = 15.04396629; V31 = 0.655214248; K31 = 185.9760682; n31 = 1.988003164; p32 = 0.003284434; p33 = 0.000601234209304622; p34 = 7.64816282169636e-005; V35 = 8.907637012; K35 = 8562.744184; V36 = 0.000597315; K36 = 528.552427; V37 = 1.745848179; K37 = 0.070379236; p38 = 0.000257; p39 = 4.81e-005; KimFOS = 0.54528521; KexFOS = 0.133249762; KimFOSP = 0.54528521; KexFOSP = 0.133249762; V42 = 0.909968714; K42 = 3992.061328; V43 = 0.076717457; K43 = 1157.116021; V44 = 0.078344305; K44 = 0.051168202; p45 = 0.000257; p46 = 4.81e-005; p47 = 0.001670815; m47 = 15.80783969; p48 = 0.686020478; p49 = 0.314470502; m49 = 2.335459127; p50 = 26.59483436; p51 = 0.01646825; m51 = 9.544308421; Fct = 0.7485; p52 = 0.001670815; m52 = 15.80783969; p53 = 0.686020478; p54 = 0.314470502; m54 = 2.335459127; p55 = 26.59483436; p56 = 0.01646825; m56 = 9.544308421; V57 = 1.026834758; K57 = 0.637490056; n57 = 3.584464176; p58 = 0.000270488; p59 = 0.001443889; p60 = 0.002448164; p61 = 3.49860901414122e-005; KimF = 0.019898797; KexF = 0.396950616; p63 = 4.13466150826031e-005; KF31 = 0.013844393; nF31 = 2.800340453; K2 = 350; Vn = 220; Vc = 940; V101 = 0.01807448; K101 = 3475.168; V102 = 0.09858154; K102 = 237.2001; V103 = 0.3573399; K103 = 1334.132; V104 = 4.635749; K104 = 4046.71; V105 = 0.05393704; K105 = 1.027895; V106 = 0.109304; K106 = 606.871; V107 = 5.291093; K107 = 424.6884; V108 = 0.03436149; K108 = 11.5048; V109 = 0.1374307; K109 = 7424.816; V110 = 0.08258693; K110 = 425.5268; V111 = 0.02487469; K111 = 858.3423; V112 = 0.8850982; K112 = 4665.217; V113 = 0.05377297; K113 = 20.50809; V114 = 0.03957055; K114 = 7.774197; V115 = 13.74244; K115 = 2122.045; // Other declarations: const default, cytoplasm, nucleus, V2, V3, K3, V4, K4, V5, K5, V6, K6, KimERK; const KexERK, KimERKP, KexERKP, KimERKPP, KexERKPP, V10, K10, n10, p11; const p12, p13, V14, K14, V15, K15, p16, p17, KimDUSP, KexDUSP, KimDUSPP; const KexDUSPP, V20, K20, V21, K21, p22, p23, V24, K24, V1, K1, V25, K25; const KimRSKP, KexRSKP, V27, K27, V28, K28, V29, K29, V30, K30, V31, K31; const n31, p32, p33, p34, V35, K35, V36, K36, V37, K37, p38, p39, KimFOS; const KexFOS, KimFOSP, KexFOSP, V42, K42, V43, K43, V44, K44, p45, p46; const p47, m47, p48, p49, m49, p50, p51, m51, Fct, p52, m52, p53, p54, m54; const p55, p56, m56, V57, K57, n57, p58, p59, p60, p61, KimF, KexF, p63; const KF31, nF31, K2, Vn, Vc, V101, K101, V102, K102, V103, K103, V104; const K104, V105, K105, V106, K106, V107, K107, V108, K108, V109, K109; const V110, K110, V111, K111, V112, K112, V113, K113, V114, K114, V115; const K115; // Unit definitions: unit volume = 1e-12 litre; unit substance = 1e-9 mole; // Display Names: reaction_32 is "v001"; reaction_6 is "v002"; re85 is "v003"; re86 is "v004"; re87 is "v005"; re88 is "v006"; re106 is "v007"; re107 is "v008"; re108 is "v009"; re109 is "v010"; re110 is "v011"; reaction_17 is "v012"; re89 is "v013"; reaction_33 is "v014"; reaction_34 is "v015"; reaction_35 is "v016"; reaction_36 is "v017"; re111 is "v018"; re112 is "v019"; reaction_12 is "v020"; reaction_13 is "v021"; reaction_14 is "v022"; reaction_15 is "v023"; reaction_41 is "v024"; reaction_42 is "v025"; re113 is "v026"; reaction_45 is "v027"; reaction_46 is "v028"; reaction_57 is "v029"; reaction_58 is "v030"; reaction_47 is "v031"; re115 is "v032"; reaction_50 is "v033"; re90 is "v034"; reaction_59 is "v035"; reaction_67 is "v036"; reaction_60 is "v037"; reaction_61 is "v038"; reaction_62 is "v039"; re116 is "v040"; re117 is "v041"; reaction_52 is "v042"; reaction_53 is "v043"; reaction_54 is "v044"; reaction_55 is "v045"; reaction_56 is "v046"; reaction_25 is "v047"; reaction_26 is "v048"; reaction_27 is "v049"; reaction_28 is "v050"; reaction_30 is "v051"; reaction_21 is "v052"; reaction_22 is "v053"; reaction_23 is "v054"; reaction_24 is "v055"; reaction_29 is "v056"; re92 is "v057"; re118 is "v058"; re94 is "v059"; re95 is "v060"; re96 is "v061"; re119 is "v062"; re99 is "v063"; reaction_31 is "v101"; reaction_68 is "v102"; reaction_69 is "v103"; reaction_70 is "v104"; reaction_71 is "v105"; reaction_72 is "v106"; reaction_73 is "v107"; reaction_74 is "v108"; reaction_75 is "v109"; reaction_76 is "v110"; reaction_77 is "v111"; reaction_78 is "v112"; reaction_79 is "v113"; reaction_80 is "v114"; reaction_81 is "v115"; end